sanitizers.c - platform/external/honggfuzz - Git at Google

 #include "sanitizers.h"

 #include <ctype.h>
 #include <dirent.h>
 #include <inttypes.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <sys/mman.h>
 #include <sys/stat.h>
 #include <sys/types.h>

 #include "cmdline.h"
 #include "libhfcommon/common.h"
 #include "libhfcommon/files.h"
 #include "libhfcommon/log.h"
 #include "libhfcommon/util.h"

 /*
  * All clang sanitizers, except ASan, can be activated for target binaries
  * with or without the matching runtime library (libcompiler_rt). If runtime
  * libraries are included in target fuzzing environment, we can benefit from the
  * various Die() callbacks and abort/exit logic manipulation. However, some
  * setups (e.g. Android production ARM/ARM64 devices) enable sanitizers, such as
  * UBSan, without the runtime libraries. As such, their default ftrap is activated
  * which is for most cases a SIGABRT. For these cases end-user needs to enable
  * SIGABRT monitoring flag, otherwise these crashes will be missed.
  *
  * Normally SIGABRT is not a wanted signal to monitor for Android, since it produces
  * lots of useless crashes due to way Android process termination hacks work. As
  * a result the sanitizer's 'abort_on_error' flag cannot be utilized since it
  * invokes abort() internally. In order to not lose crashes a custom exitcode can
  * be registered and monitored. Since exitcode is a global flag, it's assumed
  * that target is compiled with only one sanitizer type enabled at a time.
  *
  * For cases where clang runtime library linking is not an option, SIGABRT should
  * be monitored even for noisy targets, such as the Android OS, since no viable
  * alternative exists.
  *
  * There might be cases where ASan instrumented targets crash while generating
  * reports for detected errors (inside __asan_report_error() proc). Under such
  * scenarios target fails to exit or SIGABRT (AsanDie() proc) as defined in
  * ASAN_OPTIONS flags, leaving garbage logs. An attempt is made to parse such
  * logs for cases where enough data are written to identify potentially missed
  * crashes. If ASan internal error results into a SIGSEGV being raised, it
  * will get caught from ptrace API, handling the discovered ASan internal crash.
  */

 /* 'log_path' output directory for sanitizer reports */
 #define kSANLOGDIR "log_path="

 /* Raise SIGABRT on error or continue with exitcode logic */
 #define kABORT_ENABLED "abort_on_error=1"
 #define kABORT_DISABLED "abort_on_error=0"

 /*
  * Common sanitizer flags
  *
  * symbolize: Disable symbolication since it changes logs (which are parsed) format
  */
 #define kSAN_COMMON "symbolize=0"

 /* --{ ASan }-- */
 /*
  *Sanitizer specific flags (notice that if enabled 'abort_on_error' has priority
  * over exitcode')
  */
 #define kASAN_COMMON_OPTS        \
     "allow_user_segv_handler=1:" \
     "handle_segv=0:"             \
     "allocator_may_return_null=1:" kSAN_COMMON ":exitcode=" HF_XSTR(HF_SAN_EXIT_CODE)
 /* Platform specific flags */
 #if defined(__ANDROID__)
 /*
  * start_deactivated: Enable on Android to reduce memory usage (useful when not all
  *                    target's DSOs are compiled with sanitizer enabled
  */
 #define kASAN_OPTS kASAN_COMMON_OPTS ":start_deactivated=1"
 #else
 #define kASAN_OPTS kASAN_COMMON_OPTS
 #endif

 /* --{ UBSan }-- */
 #define kUBSAN_OPTS kSAN_COMMON ":exitcode=" STR(HF_SAN_EXIT_CODE)

 /* --{ MSan }-- */
 #define kMSAN_OPTS                                      \
     kSAN_COMMON ":exit_code=" STR(HF_SAN_EXIT_CODE) ":" \
                                                     "wrap_signals=0:print_stats=1"

 /* If no sanitzer support was requested, simply make it use abort() on errors */
 #define kSAN_REGULAR                                                 \
     "abort_on_error=1:handle_segv=0:handle_sigbus=0:handle_abort=0:" \
     "handle_sigill=0:handle_sigfpe=0:allocator_may_return_null=1:"   \
     "symbolize=1:detect_leaks=0:disable_coredump=0:"                 \
     "detect_odr_violation=0"

 /*
  * If the program ends with a signal that ASan does not handle (or can not
  * handle at all, like SIGKILL), coverage data will be lost. This is a big
  * problem on Android, where SIGKILL is a normal way of evicting applications
  * from memory. With 'coverage_direct=1' coverage data is written to a
  * memory-mapped file as soon as it collected. Non-Android targets can disable
  * coverage direct when more coverage data collection methods are implemented.
  */
 #define kSAN_COV_OPTS "coverage=1:coverage_direct=1"

 static void sanitizers_AddFlag(honggfuzz_t* hfuzz, const char* env, char* buf, size_t buflen) {
     const char* abortFlag = hfuzz->cfg.monitorSIGABRT ? kABORT_ENABLED : kABORT_DISABLED;
     if (getenv(env)) {
         LOG_W("The '%s' envar is already set. Not overriding it!", env);
         return;
     }

     if (!hfuzz->sanitizer.enable) {
         snprintf(buf, buflen, "%s=%s", env, kSAN_REGULAR);
     } else {
         snprintf(buf, buflen, "%s=%s:%s:%s%s/%s", env, kASAN_OPTS, abortFlag, kSANLOGDIR,
             hfuzz->io.workDir, kLOGPREFIX);
     }
     /*
      * It will make ASAN to start background thread to check RSS mem use, which
      * will prevent the NetDrvier from using unshare(CLONE_NEWNET), which cannot
      * be used in multi-threaded contexts
      */
     if (!hfuzz->exe.netDriver && hfuzz->exe.rssLimit) {
         util_ssnprintf(buf, buflen, ":soft_rss_limit_mb=%" PRId64, hfuzz->exe.rssLimit);
     }

     cmdlineAddEnv(hfuzz, buf);
     LOG_D("%s", env);
 }

 bool sanitizers_Init(honggfuzz_t* hfuzz) {
     static char asanOpts[4096];
     sanitizers_AddFlag(hfuzz, "ASAN_OPTIONS", asanOpts, sizeof(asanOpts));
     static char ubsanOpts[4096];
     sanitizers_AddFlag(hfuzz, "UBSAN_OPTIONS", ubsanOpts, sizeof(ubsanOpts));
     static char msanOpts[4096];
     sanitizers_AddFlag(hfuzz, "MSAN_OPTIONS", msanOpts, sizeof(msanOpts));
     static char lsanOpts[4096];
     sanitizers_AddFlag(hfuzz, "LSAN_OPTIONS", lsanOpts, sizeof(lsanOpts));

     return true;
 }
	#include "sanitizers.h"

	#include <ctype.h>
	#include <dirent.h>
	#include <inttypes.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <sys/mman.h>
	#include <sys/stat.h>
	#include <sys/types.h>

	#include "cmdline.h"
	#include "libhfcommon/common.h"
	#include "libhfcommon/files.h"
	#include "libhfcommon/log.h"
	#include "libhfcommon/util.h"

	/*
	* All clang sanitizers, except ASan, can be activated for target binaries
	* with or without the matching runtime library (libcompiler_rt). If runtime
	* libraries are included in target fuzzing environment, we can benefit from the
	* various Die() callbacks and abort/exit logic manipulation. However, some
	* setups (e.g. Android production ARM/ARM64 devices) enable sanitizers, such as
	* UBSan, without the runtime libraries. As such, their default ftrap is activated
	* which is for most cases a SIGABRT. For these cases end-user needs to enable
	* SIGABRT monitoring flag, otherwise these crashes will be missed.
	*
	* Normally SIGABRT is not a wanted signal to monitor for Android, since it produces
	* lots of useless crashes due to way Android process termination hacks work. As
	* a result the sanitizer's 'abort_on_error' flag cannot be utilized since it
	* invokes abort() internally. In order to not lose crashes a custom exitcode can
	* be registered and monitored. Since exitcode is a global flag, it's assumed
	* that target is compiled with only one sanitizer type enabled at a time.
	*
	* For cases where clang runtime library linking is not an option, SIGABRT should
	* be monitored even for noisy targets, such as the Android OS, since no viable
	* alternative exists.
	*
	* There might be cases where ASan instrumented targets crash while generating
	* reports for detected errors (inside __asan_report_error() proc). Under such
	* scenarios target fails to exit or SIGABRT (AsanDie() proc) as defined in
	* ASAN_OPTIONS flags, leaving garbage logs. An attempt is made to parse such
	* logs for cases where enough data are written to identify potentially missed
	* crashes. If ASan internal error results into a SIGSEGV being raised, it
	* will get caught from ptrace API, handling the discovered ASan internal crash.
	*/

	/* 'log_path' output directory for sanitizer reports */
	#define kSANLOGDIR "log_path="

	/* Raise SIGABRT on error or continue with exitcode logic */
	#define kABORT_ENABLED "abort_on_error=1"
	#define kABORT_DISABLED "abort_on_error=0"

	/*
	* Common sanitizer flags
	*
	* symbolize: Disable symbolication since it changes logs (which are parsed) format
	*/
	#define kSAN_COMMON "symbolize=0"

	/* --{ ASan }-- */
	/*
	*Sanitizer specific flags (notice that if enabled 'abort_on_error' has priority
	* over exitcode')
	*/
	#define kASAN_COMMON_OPTS \
	"allow_user_segv_handler=1:" \
	"handle_segv=0:" \
	"allocator_may_return_null=1:" kSAN_COMMON ":exitcode=" HF_XSTR(HF_SAN_EXIT_CODE)
	/* Platform specific flags */
	#if defined(__ANDROID__)
	/*
	* start_deactivated: Enable on Android to reduce memory usage (useful when not all
	* target's DSOs are compiled with sanitizer enabled
	*/
	#define kASAN_OPTS kASAN_COMMON_OPTS ":start_deactivated=1"
	#else
	#define kASAN_OPTS kASAN_COMMON_OPTS
	#endif

	/* --{ UBSan }-- */
	#define kUBSAN_OPTS kSAN_COMMON ":exitcode=" STR(HF_SAN_EXIT_CODE)

	/* --{ MSan }-- */
	#define kMSAN_OPTS \
	kSAN_COMMON ":exit_code=" STR(HF_SAN_EXIT_CODE) ":" \
	"wrap_signals=0:print_stats=1"

	/* If no sanitzer support was requested, simply make it use abort() on errors */
	#define kSAN_REGULAR \
	"abort_on_error=1:handle_segv=0:handle_sigbus=0:handle_abort=0:" \
	"handle_sigill=0:handle_sigfpe=0:allocator_may_return_null=1:" \
	"symbolize=1:detect_leaks=0:disable_coredump=0:" \
	"detect_odr_violation=0"

	/*
	* If the program ends with a signal that ASan does not handle (or can not
	* handle at all, like SIGKILL), coverage data will be lost. This is a big
	* problem on Android, where SIGKILL is a normal way of evicting applications
	* from memory. With 'coverage_direct=1' coverage data is written to a
	* memory-mapped file as soon as it collected. Non-Android targets can disable
	* coverage direct when more coverage data collection methods are implemented.
	*/
	#define kSAN_COV_OPTS "coverage=1:coverage_direct=1"

	static void sanitizers_AddFlag(honggfuzz_t* hfuzz, const char* env, char* buf, size_t buflen) {
	const char* abortFlag = hfuzz->cfg.monitorSIGABRT ? kABORT_ENABLED : kABORT_DISABLED;
	if (getenv(env)) {
	LOG_W("The '%s' envar is already set. Not overriding it!", env);
	return;
	}

	if (!hfuzz->sanitizer.enable) {
	snprintf(buf, buflen, "%s=%s", env, kSAN_REGULAR);
	} else {
	snprintf(buf, buflen, "%s=%s:%s:%s%s/%s", env, kASAN_OPTS, abortFlag, kSANLOGDIR,
	hfuzz->io.workDir, kLOGPREFIX);
	}
	/*
	* It will make ASAN to start background thread to check RSS mem use, which
	* will prevent the NetDrvier from using unshare(CLONE_NEWNET), which cannot
	* be used in multi-threaded contexts
	*/
	if (!hfuzz->exe.netDriver && hfuzz->exe.rssLimit) {
	util_ssnprintf(buf, buflen, ":soft_rss_limit_mb=%" PRId64, hfuzz->exe.rssLimit);
	}

	cmdlineAddEnv(hfuzz, buf);
	LOG_D("%s", env);
	}

	bool sanitizers_Init(honggfuzz_t* hfuzz) {
	static char asanOpts[4096];
	sanitizers_AddFlag(hfuzz, "ASAN_OPTIONS", asanOpts, sizeof(asanOpts));
	static char ubsanOpts[4096];
	sanitizers_AddFlag(hfuzz, "UBSAN_OPTIONS", ubsanOpts, sizeof(ubsanOpts));
	static char msanOpts[4096];
	sanitizers_AddFlag(hfuzz, "MSAN_OPTIONS", msanOpts, sizeof(msanOpts));
	static char lsanOpts[4096];
	sanitizers_AddFlag(hfuzz, "LSAN_OPTIONS", lsanOpts, sizeof(lsanOpts));

	return true;
	}